msc.c 85.2 KB
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/*
 * File msc.c - read VC++ debug information from COFF and eventually
 * from PDB files.
 *
 * Copyright (C) 1996, Eric Youngdale.
 * Copyright (C) 1999, Ulrich Weigand.
 *
 * Note - this handles reading debug information for 32 bit applications
 * that run under Windows-NT for example.  I doubt that this would work well
 * for 16 bit applications, but I don't think it really matters since the
 * file format is different, and we should never get in here in such cases.
 *
 * TODO:
 *	Get 16 bit CV stuff working.
 *	Add symbol size to internal symbol table.
 */

#include "config.h"
#include <stdlib.h>

#include <string.h>
#include <unistd.h>
#ifndef PATH_MAX
#define PATH_MAX _MAX_PATH
#endif
#include "debugger.h"
#include "neexe.h"
#include "pe_image.h"
#include "file.h"

typedef struct {
   IMAGE_DEBUG_DIRECTORY	dbgdir;
   u_long			sect_ofs;
   int				nsect;
   char*			dbg_info;
   int				dbg_size;
} MSC_DBG_INFO;

#define	MSC_INFO(module)	((MSC_DBG_INFO*)((module)->extra_info))

static int DEBUG_ProcessMSCDebugInfo(DBG_MODULE* module);

/*
 * dbg_filename must be at least MAX_PATHNAME_LEN bytes in size
 */
static void DEBUG_LocateDebugInfoFile(const char *filename, char *dbg_filename)
{
    char	  *str1 = DBG_alloc(MAX_PATHNAME_LEN);
    char	  *str2 = DBG_alloc(MAX_PATHNAME_LEN*10);
    const char	  *file;
    char	  *name_part;
    
    file = strrchr(filename, '\\');
    if( file == NULL ) file = filename; else file++;

    if ((GetEnvironmentVariable("_NT_SYMBOL_PATH", str1, MAX_PATHNAME_LEN) &&
	 (SearchPath(str1, file, NULL, MAX_PATHNAME_LEN*10, str2, &name_part))) ||
	(GetEnvironmentVariable("_NT_ALT_SYMBOL_PATH", str1, MAX_PATHNAME_LEN) &&
	 (SearchPath(str1, file, NULL, MAX_PATHNAME_LEN*10, str2, &name_part))) ||
	(SearchPath(NULL, file, NULL, MAX_PATHNAME_LEN*10, str2, &name_part)))
        lstrcpyn(dbg_filename, str2, MAX_PATHNAME_LEN);
    else
        lstrcpyn(dbg_filename, filename, MAX_PATHNAME_LEN);
    DBG_free(str1);
    DBG_free(str2);
}

/***********************************************************************
 *           DEBUG_MapDebugInfoFile
 */
static void*	DEBUG_MapDebugInfoFile(const char* name, DWORD offset, DWORD size,
				       HANDLE* hFile, HANDLE* hMap)
{
    OFSTRUCT	ofs;
    DWORD	g_offset;	/* offset aligned on map granuality */
    DWORD	g_size;		/* size to map, with offset aligned */
    char*	ret;

    *hMap = 0;

    if (name != NULL) {
       char 	filename[MAX_PATHNAME_LEN];

       DEBUG_LocateDebugInfoFile(name, filename);
       if ((*hFile = OpenFile(filename, &ofs, OF_READ)) == HFILE_ERROR)
	  return NULL;
    }

    if (!size) {
       DWORD file_size = GetFileSize(*hFile, NULL);
       if (file_size == (DWORD)-1) return NULL;
       size = file_size - offset;
    }

    g_offset = offset & ~0xFFFF; /* FIXME: is granularity portable ? */
    g_size = offset + size - g_offset;

    if ((*hMap = CreateFileMapping(*hFile, NULL, PAGE_READONLY, 0, 0, NULL)) == 0)
       return NULL;
    
    if ((ret = MapViewOfFile(*hMap, FILE_MAP_READ, 0, g_offset, g_size)) != NULL)
       ret += offset - g_offset;
    return ret;
}

/***********************************************************************
 *           DEBUG_UnmapDebugInfoFile
 */
static void	DEBUG_UnmapDebugInfoFile(HANDLE hFile, HANDLE hMap, void* addr)
{
   if (addr) UnmapViewOfFile(addr);
   if (hMap) CloseHandle(hMap);
   if (hFile) CloseHandle(hFile);
}

union any_size
{
  char		 * c;
  short		 * s;
  int		 * i;
  unsigned int   * ui;
};

/*
 * This is a convenience structure used to map portions of the
 * line number table.
 */
struct startend
{
  unsigned int	  start;
  unsigned int	  end;
};

/*
 * This is how we reference the various record types.
 */
union codeview_symbol
{
  struct
  {
    short int	len;
    short int	id;
  } generic;

  struct
  {
	short int	len;
	short int	id;
	unsigned int	offset;
	unsigned short	seg;
	unsigned short	symtype;
	unsigned char	namelen;
	unsigned char	name[1];
  } data;

  struct
  {
	short int	len;
	short int	id;
	unsigned int	symtype;
	unsigned int	offset;
	unsigned short	seg;
	unsigned char	namelen;
	unsigned char	name[1];
  } data32;

  struct
  {
	short int	len;
	short int	id;
	unsigned int	pparent;
	unsigned int	pend;
	unsigned int	next;
	unsigned int	offset;
	unsigned short	segment;
	unsigned short	thunk_len;
	unsigned char	thtype;
	unsigned char	namelen;
	unsigned char	name[1];
  } thunk;

  struct
  {
	short int	len;
	short int	id;
	unsigned int	pparent;
	unsigned int	pend;
	unsigned int	next;
	unsigned int	proc_len;
	unsigned int	debug_start;
	unsigned int	debug_end;
	unsigned int	offset;
	unsigned short	segment;
	unsigned short	proctype;
	unsigned char	flags;
	unsigned char	namelen;
	unsigned char	name[1];
  } proc;

  struct
  {
	short int	len;
	short int	id;
	unsigned int	pparent;
	unsigned int	pend;
	unsigned int	next;
	unsigned int	proc_len;
	unsigned int	debug_start;
	unsigned int	debug_end;
	unsigned int	proctype;
	unsigned int	offset;
	unsigned short	segment;
	unsigned char	flags;
	unsigned char	namelen;
	unsigned char	name[1];
  } proc32;

  struct
  {
	short int	len;	/* Total length of this entry */
	short int	id;		/* Always S_BPREL32 */
	unsigned int	offset;	/* Stack offset relative to BP */
	unsigned short	symtype;
	unsigned char	namelen;
	unsigned char	name[1];
  } stack;

  struct
  {
	short int	len;	/* Total length of this entry */
	short int	id;		/* Always S_BPREL32 */
	unsigned int	offset;	/* Stack offset relative to BP */
	unsigned int	symtype;
	unsigned char	namelen;
	unsigned char	name[1];
  } stack32;

};

union codeview_type
{
  struct
  {
    short int	len;
    short int	id;
  } generic;

  struct
  {
    short int		len;
    short int		id;
    short int		attribute;
    short int		datatype;
    unsigned char	variant[1];
  } pointer;

  struct
  {
    short int		len;
    short int		id;
    unsigned int	datatype;
    unsigned int	attribute;
    unsigned char	variant[1];
  } pointer32;

  struct
  {
    short int		len;
    short int		id;
    unsigned char	nbits;
    unsigned char	bitoff;
    unsigned short	type;
  } bitfield;

  struct
  {
    short int		len;
    short int		id;
    unsigned int	type;
    unsigned char	nbits;
    unsigned char	bitoff;
  } bitfield32;

  struct
  {
    short int		len;
    short int		id;
    short int		elemtype;
    short int		idxtype;
    unsigned short int	arrlen;     /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } array;

  struct
  {
    short int		len;
    short int		id;
    unsigned int	elemtype;
    unsigned int	idxtype;
    unsigned short int	arrlen;    /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } array32;

  struct
  {
    short int		len;
    short int		id;
    short int		n_element;
    short int		fieldlist;
    short int		property;
    short int		derived;
    short int		vshape;
    unsigned short int	structlen;  /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } structure;

  struct
  {
    short int		len;
    short int		id;
    short int		n_element;
    short int		property;
    unsigned int	fieldlist;
    unsigned int	derived;
    unsigned int	vshape;
    unsigned short int	structlen;  /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } structure32;

  struct
  {
    short int		len;
    short int		id;
    short int		count;
    short int		fieldlist;
    short int		property;
    unsigned short int	un_len;     /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } t_union;

  struct
  {
    short int		len;
    short int		id;
    short int		count;
    short int		property;
    unsigned int	fieldlist;
    unsigned short int	un_len;     /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } t_union32;

  struct
  {
    short int		len;
    short int		id;
    short int		count;
    short int		type;
    short int		field;
    short int		property;
    unsigned char	name[1];
  } enumeration;

  struct
  {
    short int		len;
    short int		id;
    short int		count;
    short int		property;
    unsigned int	type;
    unsigned int	field;
    unsigned char	name[1];
  } enumeration32;

  struct
  {
    short int		len;
    short int		id;
    unsigned char	list[1];
  } fieldlist;
};

union codeview_fieldtype
{
  struct
  {
    short int		id;
  } generic;

  struct
  {
    short int		id;
    short int		type;
    short int		attribute;
    unsigned short int	offset;     /* numeric leaf */
  } bclass;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	type;
    unsigned short int	offset;     /* numeric leaf */
  } bclass32;

  struct
  {
    short int		id;
    short int		btype;
    short int		vbtype;
    short int		attribute;
    unsigned short int	vbpoff;     /* numeric leaf */
#if 0
    unsigned short int	vboff;      /* numeric leaf */
#endif
  } vbclass;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	btype;
    unsigned int	vbtype;
    unsigned short int	vbpoff;     /* numeric leaf */
#if 0
    unsigned short int	vboff;      /* numeric leaf */
#endif
  } vbclass32;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned short int	value;     /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } enumerate;

  struct
  {
    short int		id;
    short int		type;
    unsigned char	name[1];
  } friendfcn;

  struct
  {
    short int		id;
    short int		_pad0;
    unsigned int	type;
    unsigned char	name[1];
  } friendfcn32;

  struct
  {
    short int		id;
    short int		type;
    short int		attribute;
    unsigned short int	offset;    /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } member;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	type;
    unsigned short int	offset;    /* numeric leaf */
#if 0
    unsigned char	name[1];
#endif
  } member32;

  struct
  {
    short int		id;
    short int		type;
    short int		attribute;
    unsigned char	name[1];
  } stmember;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	type;
    unsigned char	name[1];
  } stmember32;

  struct
  {
    short int		id;
    short int		count;
    short int		mlist;
    unsigned char	name[1];
  } method;

  struct
  {
    short int		id;
    short int		count;
    unsigned int	mlist;
    unsigned char	name[1];
  } method32;

  struct
  {
    short int		id;
    short int		index;
    unsigned char	name[1];
  } nesttype;

  struct
  {
    short int		id;
    short int		_pad0;
    unsigned int	index;
    unsigned char	name[1];
  } nesttype32;

  struct
  {
    short int		id;
    short int		type;
  } vfunctab;

  struct
  {
    short int		id;
    short int		_pad0;
    unsigned int	type;
  } vfunctab32;

  struct
  {
    short int		id;
    short int		type;
  } friendcls;

  struct
  {
    short int		id;
    short int		_pad0;
    unsigned int	type;
  } friendcls32;


  struct
  {
    short int		id;
    short int		attribute;
    short int		type;
    unsigned char	name[1];
  } onemethod;
  struct
  {
    short int		id;
    short int		attribute;
    short int		type;
    unsigned int	vtab_offset;
    unsigned char	name[1];
  } onemethod_virt;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int 	type;
    unsigned char	name[1];
  } onemethod32;
  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	type;
    unsigned int	vtab_offset;
    unsigned char	name[1];
  } onemethod32_virt;

  struct
  {
    short int		id;
    short int		type;
    unsigned int	offset;
  } vfuncoff;

  struct
  {
    short int		id;
    short int		_pad0;
    unsigned int	type;
    unsigned int	offset;
  } vfuncoff32;

  struct
  {
    short int		id;
    short int		attribute;
    short int		index;
    unsigned char	name[1];
  } nesttypeex;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	index;
    unsigned char	name[1];
  } nesttypeex32;

  struct
  {
    short int		id;
    short int		attribute;
    unsigned int	type;
    unsigned char	name[1];
  } membermodify;
};

#define S_COMPILE       0x0001
#define S_REGISTER      0x0002
#define S_CONSTANT      0x0003
#define S_UDT           0x0004
#define S_SSEARCH       0x0005
#define S_END           0x0006
#define S_SKIP          0x0007
#define S_CVRESERVE     0x0008
#define S_OBJNAME       0x0009
#define S_ENDARG        0x000a
#define S_COBOLUDT      0x000b
#define S_MANYREG       0x000c
#define S_RETURN        0x000d
#define S_ENTRYTHIS     0x000e

#define S_BPREL         0x0200
#define S_LDATA         0x0201
#define S_GDATA         0x0202
#define S_PUB           0x0203
#define S_LPROC         0x0204
#define S_GPROC         0x0205
#define S_THUNK         0x0206
#define S_BLOCK         0x0207
#define S_WITH          0x0208
#define S_LABEL         0x0209
#define S_CEXMODEL      0x020a
#define S_VFTPATH       0x020b
#define S_REGREL        0x020c
#define S_LTHREAD       0x020d
#define S_GTHREAD       0x020e

#define S_PROCREF       0x0400
#define S_DATAREF       0x0401
#define S_ALIGN         0x0402
#define S_LPROCREF      0x0403

#define S_REGISTER_32   0x1001 /* Variants with new 32-bit type indices */
#define S_CONSTANT_32   0x1002
#define S_UDT_32        0x1003
#define S_COBOLUDT_32   0x1004
#define S_MANYREG_32    0x1005

#define S_BPREL_32      0x1006
#define S_LDATA_32      0x1007
#define S_GDATA_32      0x1008
#define S_PUB_32        0x1009
#define S_LPROC_32      0x100a
#define S_GPROC_32      0x100b
#define S_VFTTABLE_32   0x100c
#define S_REGREL_32     0x100d
#define S_LTHREAD_32    0x100e
#define S_GTHREAD_32    0x100f


/*
 * This covers the basic datatypes that VC++ seems to be using these days.
 * 32 bit mode only.  There are additional numbers for the pointers in 16
 * bit mode.  There are many other types listed in the documents, but these
 * are apparently not used by the compiler, or represent pointer types
 * that are not used.
 */
#define T_NOTYPE	0x0000	/* Notype */
#define T_ABS		0x0001	/* Abs */
#define T_VOID		0x0003	/* Void */
#define T_CHAR		0x0010	/* signed char */
#define T_SHORT		0x0011	/* short */
#define T_LONG		0x0012	/* long */
#define T_QUAD		0x0013	/* long long */
#define T_UCHAR		0x0020	/* unsigned  char */
#define T_USHORT	0x0021	/* unsigned short */
#define T_ULONG		0x0022	/* unsigned long */
#define T_UQUAD		0x0023	/* unsigned long long */
#define T_REAL32	0x0040	/* float */
#define T_REAL64	0x0041	/* double */
#define T_RCHAR		0x0070	/* real char */
#define T_WCHAR		0x0071	/* wide char */
#define T_INT4		0x0074	/* int */
#define T_UINT4		0x0075	/* unsigned int */

#define T_32PVOID	0x0403	/* 32 bit near pointer to void */
#define T_32PCHAR	0x0410  /* 16:32 near pointer to signed char */
#define T_32PSHORT	0x0411  /* 16:32 near pointer to short */
#define T_32PLONG	0x0412  /* 16:32 near pointer to int */
#define T_32PQUAD	0x0413  /* 16:32 near pointer to long long */
#define T_32PUCHAR	0x0420  /* 16:32 near pointer to unsigned char */
#define T_32PUSHORT	0x0421  /* 16:32 near pointer to unsigned short */
#define T_32PULONG	0x0422	/* 16:32 near pointer to unsigned int */
#define T_32PUQUAD	0x0423  /* 16:32 near pointer to long long */
#define T_32PREAL32	0x0440	/* 16:32 near pointer to float */
#define T_32PREAL64	0x0441	/* 16:32 near pointer to float */
#define T_32PRCHAR	0x0470	/* 16:32 near pointer to real char */
#define T_32PWCHAR	0x0471	/* 16:32 near pointer to real char */
#define T_32PINT4	0x0474	/* 16:32 near pointer to int */
#define T_32PUINT4	0x0475  /* 16:32 near pointer to unsigned int */

#define LF_MODIFIER     0x0001
#define LF_POINTER      0x0002
#define LF_ARRAY        0x0003
#define LF_CLASS        0x0004
#define LF_STRUCTURE    0x0005
#define LF_UNION        0x0006
#define LF_ENUM         0x0007
#define LF_PROCEDURE    0x0008
#define LF_MFUNCTION    0x0009
#define LF_VTSHAPE      0x000a
#define LF_COBOL0       0x000b
#define LF_COBOL1       0x000c
#define LF_BARRAY       0x000d
#define LF_LABEL        0x000e
#define LF_NULL         0x000f
#define LF_NOTTRAN      0x0010
#define LF_DIMARRAY     0x0011
#define LF_VFTPATH      0x0012
#define LF_PRECOMP      0x0013
#define LF_ENDPRECOMP   0x0014
#define LF_OEM          0x0015
#define LF_TYPESERVER   0x0016

#define LF_MODIFIER_32  0x1001     /* variants with new 32-bit type indices */
#define LF_POINTER_32   0x1002
#define LF_ARRAY_32     0x1003
#define LF_CLASS_32     0x1004
#define LF_STRUCTURE_32 0x1005
#define LF_UNION_32     0x1006
#define LF_ENUM_32      0x1007
#define LF_PROCEDURE_32 0x1008
#define LF_MFUNCTION_32 0x1009
#define LF_COBOL0_32    0x100a
#define LF_BARRAY_32    0x100b
#define LF_DIMARRAY_32  0x100c
#define LF_VFTPATH_32   0x100d
#define LF_PRECOMP_32   0x100e
#define LF_OEM_32       0x100f

#define LF_SKIP         0x0200
#define LF_ARGLIST      0x0201
#define LF_DEFARG       0x0202
#define LF_LIST         0x0203
#define LF_FIELDLIST    0x0204
#define LF_DERIVED      0x0205
#define LF_BITFIELD     0x0206
#define LF_METHODLIST   0x0207
#define LF_DIMCONU      0x0208
#define LF_DIMCONLU     0x0209
#define LF_DIMVARU      0x020a
#define LF_DIMVARLU     0x020b
#define LF_REFSYM       0x020c

#define LF_SKIP_32      0x1200    /* variants with new 32-bit type indices */
#define LF_ARGLIST_32   0x1201
#define LF_DEFARG_32    0x1202
#define LF_FIELDLIST_32 0x1203
#define LF_DERIVED_32   0x1204
#define LF_BITFIELD_32  0x1205
#define LF_METHODLIST_32 0x1206
#define LF_DIMCONU_32   0x1207
#define LF_DIMCONLU_32  0x1208
#define LF_DIMVARU_32   0x1209
#define LF_DIMVARLU_32  0x120a

#define LF_BCLASS       0x0400
#define LF_VBCLASS      0x0401
#define LF_IVBCLASS     0x0402
#define LF_ENUMERATE    0x0403
#define LF_FRIENDFCN    0x0404
#define LF_INDEX        0x0405
#define LF_MEMBER       0x0406
#define LF_STMEMBER     0x0407
#define LF_METHOD       0x0408
#define LF_NESTTYPE     0x0409
#define LF_VFUNCTAB     0x040a
#define LF_FRIENDCLS    0x040b
#define LF_ONEMETHOD    0x040c
#define LF_VFUNCOFF     0x040d
#define LF_NESTTYPEEX   0x040e
#define LF_MEMBERMODIFY 0x040f

#define LF_BCLASS_32    0x1400    /* variants with new 32-bit type indices */
#define LF_VBCLASS_32   0x1401
#define LF_IVBCLASS_32  0x1402
#define LF_FRIENDFCN_32 0x1403
#define LF_INDEX_32     0x1404
#define LF_MEMBER_32    0x1405
#define LF_STMEMBER_32  0x1406
#define LF_METHOD_32    0x1407
#define LF_NESTTYPE_32  0x1408
#define LF_VFUNCTAB_32  0x1409
#define LF_FRIENDCLS_32 0x140a
#define LF_ONEMETHOD_32 0x140b
#define LF_VFUNCOFF_32  0x140c
#define LF_NESTTYPEEX_32 0x140d

#define LF_NUMERIC      0x8000    /* numeric leaf types */
#define LF_CHAR         0x8000
#define LF_SHORT        0x8001
#define LF_USHORT       0x8002
#define LF_LONG         0x8003
#define LF_ULONG        0x8004
#define LF_REAL32       0x8005
#define LF_REAL64       0x8006
#define LF_REAL80       0x8007
#define LF_REAL128      0x8008
#define LF_QUADWORD     0x8009
#define LF_UQUADWORD    0x800a
#define LF_REAL48       0x800b
#define LF_COMPLEX32    0x800c
#define LF_COMPLEX64    0x800d
#define LF_COMPLEX80    0x800e
#define LF_COMPLEX128   0x800f
#define LF_VARSTRING    0x8010



#define MAX_BUILTIN_TYPES	0x480
static struct datatype * cv_basic_types[MAX_BUILTIN_TYPES];
static int num_cv_defined_types = 0;
static struct datatype **cv_defined_types = NULL;

/*
 * For the type CODEVIEW debug directory entries, the debug directory
 * points to a structure like this.  The cv_name field is the name
 * of an external .PDB file.
 */
struct CodeViewDebug
{
	char		    cv_nbtype[8];
	unsigned int	    cv_timestamp;
	char		    cv_unknown[4];
	char		    cv_name[1];
};

struct MiscDebug {
    unsigned int       DataType;
    unsigned int       Length;
    char	       Unicode;
    char	       Reserved[3];
    char	       Data[1];
};

/*
 * This is the header that the COFF variety of debug header points to.
 */
struct CoffDebug {
    unsigned int   N_Sym;
    unsigned int   SymbolOffset;
    unsigned int   N_Linenum;
    unsigned int   LinenumberOffset;
    unsigned int   Unused[4];
};

struct CoffLinenum {
	unsigned int		VirtualAddr;
	unsigned short int	Linenum;
};

struct CoffFiles {
	unsigned int	startaddr;
	unsigned int	endaddr;
	char	      * filename;
	int		linetab_offset;
	int		linecnt;
	struct name_hash **entries;
	int		       neps;
	int		 neps_alloc;
};


struct CoffSymbol {
    union {
        char    ShortName[8];
        struct {
            unsigned int   NotLong;
            unsigned int   StrTaboff;
        } Name;
    } N;
    unsigned int   Value;
    short	   SectionNumber;
    short	   Type;
    char	   StorageClass;
    unsigned char  NumberOfAuxSymbols;
};

struct CoffAuxSection{
  unsigned int   Length;
  unsigned short NumberOfRelocations;
  unsigned short NumberOfLinenumbers;
  unsigned int   CheckSum;
  short          Number;
  char           Selection;
} Section;

/*
 * These two structures are used in the directory within a .DBG file
 * to locate the individual important bits that we might want to see.
 */
struct CV4_DirHead {
  short unsigned int	   dhsize;
  short unsigned int	   desize;
  unsigned int		   ndir;
  unsigned int		   next_offset;
  unsigned int		   flags;
};

struct CV4_DirEnt {
  short unsigned int	   subsect_number;
  short unsigned int	   module_number;
  unsigned int		   offset;
  unsigned int		   size;
};

/*
 * These are the values of interest that the subsect_number field takes.
 */
#define	sstAlignSym		0x125
#define	sstSrcModule		0x127

struct codeview_linetab_hdr
{
  unsigned int		   nline;
  unsigned int		   segno;
  unsigned int		   start;
  unsigned int		   end;
  char			 * sourcefile;
  unsigned short	 * linetab;
  unsigned int		 * offtab;
};



/*
 * CodeView type information parsing 
 */

static int
numeric_leaf( int *value, unsigned short int *leaf )
{
    unsigned short int type = *leaf++;
    int length = 2;

    if ( type < LF_NUMERIC )
    {
        *value = type;
    }
    else
    { 
        switch ( type )
        {
        case LF_CHAR:
            length += 1;
            *value = *(char *)leaf;
            break;

        case LF_SHORT:
            length += 2;
            *value = *(short *)leaf;
            break;

        case LF_USHORT:
            length += 2;
            *value = *(unsigned short *)leaf;
            break;

        case LF_LONG:
            length += 4;
            *value = *(int *)leaf;
            break;

        case LF_ULONG:
            length += 4;
            *value = *(unsigned int *)leaf;
            break;

        case LF_QUADWORD:
        case LF_UQUADWORD:
            length += 8;
            *value = 0;    /* FIXME */
            break;

        case LF_REAL32:
            length += 4;
            *value = 0;    /* FIXME */
            break;

        case LF_REAL48:
            length += 6;
            *value = 0;    /* FIXME */
            break;

        case LF_REAL64:
            length += 8;
            *value = 0;    /* FIXME */
            break;

        case LF_REAL80:
            length += 10;
            *value = 0;    /* FIXME */
            break;

        case LF_REAL128:
            length += 16;
            *value = 0;    /* FIXME */
            break;

        case LF_COMPLEX32:
            length += 4;
            *value = 0;    /* FIXME */
            break;

        case LF_COMPLEX64:
            length += 8;
            *value = 0;    /* FIXME */
            break;

        case LF_COMPLEX80:
            length += 10;
            *value = 0;    /* FIXME */
            break;

        case LF_COMPLEX128:
            length += 16;
            *value = 0;    /* FIXME */
            break;

        case LF_VARSTRING:
            length += 2 + *leaf;
            *value = 0;    /* FIXME */
            break;

        default:
	    DEBUG_Printf( DBG_CHN_MESG, "Unknown numeric leaf type %04x\n", type );
            *value = 0;
            break;
        }
    }

    return length;
}

static char *
terminate_string( unsigned char *name )
{
    static char symname[256];

    int namelen = name[0];
    assert( namelen >= 0 && namelen < 256 );

    memcpy( symname, name+1, namelen );
    symname[namelen] = '\0';

    if ( !*symname || strcmp( symname, "__unnamed" ) == 0 )
        return NULL;
    else
        return symname;
}

static 
struct datatype * DEBUG_GetCVType(unsigned int typeno)
{
    struct datatype * dt = NULL;

    /*
     * Convert Codeview type numbers into something we can grok internally.
     * Numbers < 0x1000 are all fixed builtin types.  Numbers from 0x1000 and
     * up are all user defined (structs, etc).
     */
    if ( typeno < 0x1000 )
    {
        if ( typeno < MAX_BUILTIN_TYPES )
	    dt = cv_basic_types[typeno];
    }
    else
    {
        if ( typeno - 0x1000 < num_cv_defined_types )
	    dt = cv_defined_types[typeno - 0x1000];
    }

    return dt;
}

static int
DEBUG_AddCVType( unsigned int typeno, struct datatype *dt )
{
    while ( typeno - 0x1000 >= num_cv_defined_types )
    {
        num_cv_defined_types += 0x100;
        cv_defined_types = (struct datatype **) 
            DBG_realloc( cv_defined_types,
		         num_cv_defined_types * sizeof(struct datatype *) );

        memset( cv_defined_types + num_cv_defined_types - 0x100,
		0,
		0x100 * sizeof(struct datatype *) );

        if ( cv_defined_types == NULL )
            return FALSE;
    }

    cv_defined_types[ typeno - 0x1000 ] = dt;
    return TRUE;
}

static void
DEBUG_ClearTypeTable( void )
{
    if ( cv_defined_types )
        DBG_free( cv_defined_types );

    cv_defined_types = NULL;
    num_cv_defined_types = 0;
}

static int
DEBUG_AddCVType_Pointer( unsigned int typeno, unsigned int datatype )
{
    struct datatype *dt = 
	    DEBUG_FindOrMakePointerType( DEBUG_GetCVType( datatype ) );

    return DEBUG_AddCVType( typeno, dt );
}
  
static int
DEBUG_AddCVType_Array( unsigned int typeno, char *name,
                       unsigned int elemtype, unsigned int arr_len )
{
    struct datatype *dt    = DEBUG_NewDataType( DT_ARRAY, name );
    struct datatype *elem  = DEBUG_GetCVType( elemtype );
    unsigned int elem_size = elem? DEBUG_GetObjectSize( elem ) : 0;
    unsigned int arr_max   = elem_size? arr_len / elem_size : 0;

    DEBUG_SetArrayParams( dt, 0, arr_max, elem );
    return DEBUG_AddCVType( typeno, dt );
}    

static int
DEBUG_AddCVType_Bitfield( unsigned int typeno, 
                          unsigned int bitoff, unsigned int nbits,
                          unsigned int basetype )
{
    struct datatype *dt   = DEBUG_NewDataType( DT_BITFIELD, NULL );
    struct datatype *base = DEBUG_GetCVType( basetype );

    DEBUG_SetBitfieldParams( dt, bitoff, nbits, base );
    return DEBUG_AddCVType( typeno, dt );
}
  
static int
DEBUG_AddCVType_EnumFieldList( unsigned int typeno, unsigned char *list, int len )
{
    struct datatype *dt = DEBUG_NewDataType( DT_ENUM, NULL );
    unsigned char *ptr = list;

    while ( ptr - list < len )
    {
        union codeview_fieldtype *type = (union codeview_fieldtype *)ptr;

        if ( *ptr >= 0xf0 )       /* LF_PAD... */
        {
            ptr += *ptr & 0x0f;
            continue;
        }

        switch ( type->generic.id )
        {
        case LF_ENUMERATE:
        {
            int value, vlen = numeric_leaf( &value, &type->enumerate.value );
            unsigned char *name = (unsigned char *)&type->enumerate.value + vlen;

            DEBUG_AddStructElement( dt, terminate_string( name ), 
                                        NULL, value, 0 );

            ptr += 2 + 2 + vlen + (1 + name[0]);
            break;
        }

        default:
            DEBUG_Printf( DBG_CHN_MESG, "Unhandled type %04x in ENUM field list\n",
                                         type->generic.id );
            return FALSE;
        }
    }

    return DEBUG_AddCVType( typeno, dt );
}
  
static int
DEBUG_AddCVType_StructFieldList( unsigned int typeno, unsigned char *list, int len )
{
    struct datatype *dt = DEBUG_NewDataType( DT_STRUCT, NULL );
    unsigned char *ptr = list;

    while ( ptr - list < len )
    {
        union codeview_fieldtype *type = (union codeview_fieldtype *)ptr;

        if ( *ptr >= 0xf0 )       /* LF_PAD... */
        {
            ptr += *ptr & 0x0f;
            continue;
        }

        switch ( type->generic.id )
        {
        case LF_BCLASS:
        {
            int offset, olen = numeric_leaf( &offset, &type->bclass.offset );

            /* FIXME: ignored for now */

            ptr += 2 + 2 + 2 + olen;
            break;
        }

        case LF_BCLASS_32:
        {
            int offset, olen = numeric_leaf( &offset, &type->bclass32.offset );

            /* FIXME: ignored for now */

            ptr += 2 + 2 + 4 + olen;
            break;
        }

        case LF_VBCLASS:
        case LF_IVBCLASS:
        {
            int vbpoff, vbplen = numeric_leaf( &vbpoff, &type->vbclass.vbpoff );
            unsigned short int *p_vboff = (unsigned short int *)((char *)&type->vbclass.vbpoff + vbpoff);
            int vpoff, vplen = numeric_leaf( &vpoff, p_vboff );

            /* FIXME: ignored for now */

            ptr += 2 + 2 + 2 + 2 + vbplen + vplen;
            break;
        }

        case LF_VBCLASS_32:
        case LF_IVBCLASS_32:
        {
            int vbpoff, vbplen = numeric_leaf( &vbpoff, &type->vbclass32.vbpoff );
            unsigned short int *p_vboff = (unsigned short int *)((char *)&type->vbclass32.vbpoff + vbpoff);
            int vpoff, vplen = numeric_leaf( &vpoff, p_vboff );

            /* FIXME: ignored for now */

            ptr += 2 + 2 + 4 + 4 + vbplen + vplen;
            break;
        }

        case LF_MEMBER:
        {
            int offset, olen = numeric_leaf( &offset, &type->member.offset );
            unsigned char *name = (unsigned char *)&type->member.offset + olen;

            struct datatype *subtype = DEBUG_GetCVType( type->member.type );
            int elem_size = subtype? DEBUG_GetObjectSize( subtype ) : 0;

            DEBUG_AddStructElement( dt, terminate_string( name ), 
                                        subtype, offset << 3, elem_size << 3 );

            ptr += 2 + 2 + 2 + olen + (1 + name[0]);
            break;
        }

        case LF_MEMBER_32:
        {
            int offset, olen = numeric_leaf( &offset, &type->member32.offset );
            unsigned char *name = (unsigned char *)&type->member32.offset + olen;

            struct datatype *subtype = DEBUG_GetCVType( type->member32.type );
            int elem_size = subtype? DEBUG_GetObjectSize( subtype ) : 0;

            DEBUG_AddStructElement( dt, terminate_string( name ), 
                                        subtype, offset << 3, elem_size << 3 );

            ptr += 2 + 2 + 4 + olen + (1 + name[0]);
            break;
        }

        case LF_STMEMBER:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + 2 + (1 + type->stmember.name[0]);
            break;

        case LF_STMEMBER_32:
            /* FIXME: ignored for now */
            ptr += 2 + 4 + 2 + (1 + type->stmember32.name[0]);
            break;

        case LF_METHOD:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + 2 + (1 + type->method.name[0]);
            break;

        case LF_METHOD_32:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + 4 + (1 + type->method32.name[0]);
            break;

        case LF_NESTTYPE:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + (1 + type->nesttype.name[0]);
            break;

        case LF_NESTTYPE_32:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + 4 + (1 + type->nesttype32.name[0]);
            break;

        case LF_VFUNCTAB:
            /* FIXME: ignored for now */
            ptr += 2 + 2;
            break;
        
        case LF_VFUNCTAB_32:
            /* FIXME: ignored for now */
            ptr += 2 + 2 + 4;
            break;

        case LF_ONEMETHOD:
            /* FIXME: ignored for now */
            switch ( (type->onemethod.attribute >> 2) & 7 )
            {
            case 4: case 6: /* (pure) introducing virtual method */
                ptr += 2 + 2 + 2 + 4 + (1 + type->onemethod_virt.name[0]);
                break;

            default:
                ptr += 2 + 2 + 2 + (1 + type->onemethod.name[0]);
                break;
            }
            break;

        case LF_ONEMETHOD_32:
            /* FIXME: ignored for now */
            switch ( (type->onemethod32.attribute >> 2) & 7 )
            {
            case 4: case 6: /* (pure) introducing virtual method */
                ptr += 2 + 2 + 4 + 4 + (1 + type->onemethod32_virt.name[0]);
                break;
           
            default:
                ptr += 2 + 2 + 4 + (1 + type->onemethod32.name[0]);
                break;
            }
            break;

        default:
            DEBUG_Printf( DBG_CHN_MESG, "Unhandled type %04x in STRUCT field list\n",
                                        type->generic.id );
            return FALSE;
        }
    }

    return DEBUG_AddCVType( typeno, dt );
}
  
static int
DEBUG_AddCVType_Enum( unsigned int typeno, char *name, unsigned int fieldlist )
{
    struct datatype *dt   = DEBUG_NewDataType( DT_ENUM, name );
    struct datatype *list = DEBUG_GetCVType( fieldlist );

    if ( list )
        DEBUG_CopyFieldlist( dt, list );

    return DEBUG_AddCVType( typeno, dt );
}

static int
DEBUG_AddCVType_Struct( unsigned int typeno, char *name, int structlen, unsigned int fieldlist )
{
    struct datatype *dt   = DEBUG_NewDataType( DT_STRUCT, name );
    struct datatype *list = DEBUG_GetCVType( fieldlist );

    if ( list )
    {
        DEBUG_SetStructSize( dt, structlen );
        DEBUG_CopyFieldlist( dt, list );
    }

    return DEBUG_AddCVType( typeno, dt );
}

static int
DEBUG_ParseTypeTable( char *table, int len )
{
    unsigned int curr_type = 0x1000;
    char *ptr = table;

    while ( ptr - table < len )
    {
        union codeview_type *type = (union codeview_type *) ptr;
        int retv = TRUE;

        switch ( type->generic.id )
        {
        case LF_POINTER:
            retv = DEBUG_AddCVType_Pointer( curr_type, type->pointer.datatype );
            break;
        case LF_POINTER_32:
            retv = DEBUG_AddCVType_Pointer( curr_type, type->pointer32.datatype );
            break;

        case LF_ARRAY:
        {
            int arrlen, alen = numeric_leaf( &arrlen, &type->array.arrlen );
            unsigned char *name = (unsigned char *)&type->array.arrlen + alen;

            retv = DEBUG_AddCVType_Array( curr_type, terminate_string( name ),
                                          type->array.elemtype, arrlen );
            break;
        }
        case LF_ARRAY_32:
        {
            int arrlen, alen = numeric_leaf( &arrlen, &type->array32.arrlen );
            unsigned char *name = (unsigned char *)&type->array32.arrlen + alen;

            retv = DEBUG_AddCVType_Array( curr_type, terminate_string( name ),
                                          type->array32.elemtype, type->array32.arrlen );
            break;
        }

        case LF_BITFIELD:
            retv = DEBUG_AddCVType_Bitfield( curr_type, type->bitfield.bitoff, 
                                                        type->bitfield.nbits,
                                                        type->bitfield.type );
            break;
        case LF_BITFIELD_32:
            retv = DEBUG_AddCVType_Bitfield( curr_type, type->bitfield32.bitoff, 
                                                        type->bitfield32.nbits,
                                                        type->bitfield32.type );
            break;

        case LF_FIELDLIST:
        case LF_FIELDLIST_32:
        {
            /*
             * A 'field list' is a CodeView-specific data type which doesn't
             * directly correspond to any high-level data type.  It is used
             * to hold the collection of members of a struct, class, union
             * or enum type.  The actual definition of that type will follow
             * later, and refer to the field list definition record.
             *
             * As we don't have a field list type ourselves, we look ahead
             * in the field list to try to find out whether this field list
             * will be used for an enum or struct type, and create a dummy
             * type of the corresponding sort.  Later on, the definition of
             * the 'real' type will copy the member / enumeration data.
             */

            char *list = type->fieldlist.list;
            int   len  = (ptr + type->generic.len + 2) - list;

            if ( ((union codeview_fieldtype *)list)->generic.id == LF_ENUMERATE )
                retv = DEBUG_AddCVType_EnumFieldList( curr_type, list, len );
            else
                retv = DEBUG_AddCVType_StructFieldList( curr_type, list, len );
            break;
        }

        case LF_STRUCTURE:
        case LF_CLASS:
        {
            int structlen, slen = numeric_leaf( &structlen, &type->structure.structlen );
            unsigned char *name = (unsigned char *)&type->structure.structlen + slen;

            retv = DEBUG_AddCVType_Struct( curr_type, terminate_string( name ),
                                           structlen, type->structure.fieldlist );
            break;
        }
        case LF_STRUCTURE_32:
        case LF_CLASS_32:
        {
            int structlen, slen = numeric_leaf( &structlen, &type->structure32.structlen );
            unsigned char *name = (unsigned char *)&type->structure32.structlen + slen;

            retv = DEBUG_AddCVType_Struct( curr_type, terminate_string( name ),
                                           structlen, type->structure32.fieldlist );
            break;
        }

        case LF_UNION:
        {
            int un_len, ulen = numeric_leaf( &un_len, &type->t_union.un_len );
            unsigned char *name = (unsigned char *)&type->t_union.un_len + ulen;

            retv = DEBUG_AddCVType_Struct( curr_type, terminate_string( name ),
                                           un_len, type->t_union.fieldlist );
            break;
        }
        case LF_UNION_32:
        {
            int un_len, ulen = numeric_leaf( &un_len, &type->t_union32.un_len );
            unsigned char *name = (unsigned char *)&type->t_union32.un_len + ulen;

            retv = DEBUG_AddCVType_Struct( curr_type, terminate_string( name ),
                                           un_len, type->t_union32.fieldlist );
            break;
        }

        case LF_ENUM:
            retv = DEBUG_AddCVType_Enum( curr_type, terminate_string( type->enumeration.name ),
                                         type->enumeration.field );
            break;
        case LF_ENUM_32:
            retv = DEBUG_AddCVType_Enum( curr_type, terminate_string( type->enumeration32.name ),
                                         type->enumeration32.field );
            break;

        default:
            break;
        }

        if ( !retv )
            return FALSE;

        curr_type++;
        ptr += type->generic.len + 2;
    }
  
    return TRUE;
}


void
DEBUG_InitCVDataTypes(void)
{
  /*
   * These are the common builtin types that are used by VC++.
   */
  cv_basic_types[T_NOTYPE] = NULL;
  cv_basic_types[T_ABS] = NULL;
  cv_basic_types[T_VOID] = DEBUG_NewDataType(DT_BASIC, "void");
  cv_basic_types[T_CHAR] = DEBUG_NewDataType(DT_BASIC, "char");
  cv_basic_types[T_SHORT] = DEBUG_NewDataType(DT_BASIC, "short int");
  cv_basic_types[T_LONG] = DEBUG_NewDataType(DT_BASIC, "long int");
  cv_basic_types[T_QUAD] = DEBUG_NewDataType(DT_BASIC, "long long int");
  cv_basic_types[T_UCHAR] = DEBUG_NewDataType(DT_BASIC, "unsigned char");
  cv_basic_types[T_USHORT] = DEBUG_NewDataType(DT_BASIC, "short unsigned int");
  cv_basic_types[T_ULONG] = DEBUG_NewDataType(DT_BASIC, "long unsigned int");
  cv_basic_types[T_UQUAD] = DEBUG_NewDataType(DT_BASIC, "long long unsigned int");
  cv_basic_types[T_REAL32] = DEBUG_NewDataType(DT_BASIC, "float");
  cv_basic_types[T_REAL64] = DEBUG_NewDataType(DT_BASIC, "double");
  cv_basic_types[T_RCHAR] = DEBUG_NewDataType(DT_BASIC, "char");
  cv_basic_types[T_WCHAR] = DEBUG_NewDataType(DT_BASIC, "short");
  cv_basic_types[T_INT4] = DEBUG_NewDataType(DT_BASIC, "int");
  cv_basic_types[T_UINT4] = DEBUG_NewDataType(DT_BASIC, "unsigned int");

  cv_basic_types[T_32PVOID] = DEBUG_FindOrMakePointerType(cv_basic_types[T_VOID]);
  cv_basic_types[T_32PCHAR] = DEBUG_FindOrMakePointerType(cv_basic_types[T_CHAR]);
  cv_basic_types[T_32PSHORT] = DEBUG_FindOrMakePointerType(cv_basic_types[T_SHORT]);
  cv_basic_types[T_32PLONG] = DEBUG_FindOrMakePointerType(cv_basic_types[T_LONG]);
  cv_basic_types[T_32PQUAD] = DEBUG_FindOrMakePointerType(cv_basic_types[T_QUAD]);
  cv_basic_types[T_32PUCHAR] = DEBUG_FindOrMakePointerType(cv_basic_types[T_UCHAR]);
  cv_basic_types[T_32PUSHORT] = DEBUG_FindOrMakePointerType(cv_basic_types[T_USHORT]);
  cv_basic_types[T_32PULONG] = DEBUG_FindOrMakePointerType(cv_basic_types[T_ULONG]);
  cv_basic_types[T_32PUQUAD] = DEBUG_FindOrMakePointerType(cv_basic_types[T_UQUAD]);
  cv_basic_types[T_32PREAL32] = DEBUG_FindOrMakePointerType(cv_basic_types[T_REAL32]);
  cv_basic_types[T_32PREAL64] = DEBUG_FindOrMakePointerType(cv_basic_types[T_REAL64]);
  cv_basic_types[T_32PRCHAR] = DEBUG_FindOrMakePointerType(cv_basic_types[T_RCHAR]);
  cv_basic_types[T_32PWCHAR] = DEBUG_FindOrMakePointerType(cv_basic_types[T_WCHAR]);
  cv_basic_types[T_32PINT4] = DEBUG_FindOrMakePointerType(cv_basic_types[T_INT4]);
  cv_basic_types[T_32PUINT4] = DEBUG_FindOrMakePointerType(cv_basic_types[T_UINT4]);
}

/*
 * In this function, we keep track of deferred debugging information
 * that we may need later if we were to need to use the internal debugger.
 * We don't fully process it here for performance reasons.
 */
int
DEBUG_RegisterMSCDebugInfo(DBG_MODULE* module, HANDLE hFile, void* _nth, unsigned long nth_ofs)
{
  int			  has_codeview = FALSE;
  int			  rtn = FALSE;
  IMAGE_DEBUG_DIRECTORY   dbg;
  u_long                  v_addr, size, orig_size;
  PIMAGE_NT_HEADERS	  nth = (PIMAGE_NT_HEADERS)_nth;

  orig_size = nth->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG].Size;
  if (orig_size) {
    v_addr = nth->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG].VirtualAddress;
    for(size = orig_size; size >= sizeof(dbg); size -= sizeof(dbg))
    {
      if (!DEBUG_READ_MEM_VERBOSE((void*)((char *) module->load_addr + v_addr), &dbg, sizeof(dbg))) continue;

      switch(dbg.Type)
	{
	case IMAGE_DEBUG_TYPE_CODEVIEW:
	case IMAGE_DEBUG_TYPE_MISC:
	  has_codeview = TRUE;
	  break;
	}
      v_addr += sizeof(dbg);
    }

    v_addr = nth->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG].VirtualAddress;
    for(size = orig_size; size >= sizeof(dbg); size -= sizeof(dbg))
    {
      if (!DEBUG_READ_MEM_VERBOSE((void*)((char *)module->load_addr + v_addr), &dbg, sizeof(dbg))) continue;

      switch(dbg.Type)
	{
	case IMAGE_DEBUG_TYPE_COFF:
	  /*
	   * If we have both codeview and COFF debug info, ignore the
	   * coff debug info as it would just confuse us, and it is 
	   * less complete.
	   *
	   * FIXME - this is broken - if we cannot find the PDB file, then
	   * we end up with no debugging info at all.  In this case, we
	   * should use the COFF info as a backup.
	   */
	  if( has_codeview )
	    {
	      break;
	    }
	case IMAGE_DEBUG_TYPE_CODEVIEW:
	case IMAGE_DEBUG_TYPE_MISC:
	  /*
	   * This is usually an indirection to a .DBG file.
	   * This is similar to (but a slightly older format) from the
	   * PDB file.
	   *
	   * First check to see if the image was 'stripped'.  If so, it
	   * means that this entry points to a .DBG file.  Otherwise,
	   * it just points to itself, and we can ignore this.
	   */

          if(   (dbg.Type != IMAGE_DEBUG_TYPE_MISC) ||
                (nth->FileHeader.Characteristics & IMAGE_FILE_DEBUG_STRIPPED) != 0 )
            {
                /*
                 * Read the important bits.  What we do after this depends
                 * upon the type, but this is always enough so we are able
                 * to proceed if we know what we need to do next.
                 */                  
                /* basically, the PE loader maps all sections (data, resources...), but doesn't map
                 * the DataDirectory array's content. One its entry contains the *beloved*
                 * debug information. (Note the DataDirectory is mapped, not its content)
                 */
		HANDLE	hMap;
		char*	dbg_info;

		DEBUG_Printf(DBG_CHN_TRACE, "PE debugging info at %ld<%ld>\n", dbg.PointerToRawData, dbg.SizeOfData);
		dbg_info = DEBUG_MapDebugInfoFile(NULL, dbg.PointerToRawData, dbg.SizeOfData,
						  &hFile, &hMap);

		if (dbg_info != NULL && 
		    (module->extra_info = DBG_alloc(sizeof(MSC_DBG_INFO))) != NULL) {
		   MSC_INFO(module)->dbg_info = dbg_info;
		   MSC_INFO(module)->dbg_size = dbg.SizeOfData;
		   MSC_INFO(module)->dbgdir = dbg;
		   MSC_INFO(module)->sect_ofs = nth_ofs + OFFSET_OF(IMAGE_NT_HEADERS, OptionalHeader) +
		      nth->FileHeader.SizeOfOptionalHeader;
		   MSC_INFO(module)->nsect = nth->FileHeader.NumberOfSections;
		   DEBUG_ProcessMSCDebugInfo(module);
		   DBG_free(MSC_INFO(module));
		   MSC_INFO(module) = NULL;
		}
		DEBUG_UnmapDebugInfoFile(0, hMap, dbg_info);
	    }
	  break;
#if 0
	default:
#endif
	}
      v_addr += sizeof(dbg);
    }
    DEBUG_CurrProcess->next_index++;
  }

  return rtn;
}

/* look for stabs information in PE header (it's how mingw compiler provides its
 * debugging information), and also wine PE <-> ELF linking thru .wsolnk sections
 */
int DEBUG_RegisterStabsDebugInfo(DBG_MODULE* module, HANDLE hFile, void* _nth, 
				 unsigned long nth_ofs)
{
    IMAGE_SECTION_HEADER	pe_seg;
    unsigned long		pe_seg_ofs;
    int 		      	i, stabsize = 0, stabstrsize = 0, xcnlnksize = 0;
    unsigned int 		stabs = 0, stabstr = 0, xcnlnk = 0;
    PIMAGE_NT_HEADERS		nth = (PIMAGE_NT_HEADERS)_nth;

    pe_seg_ofs = nth_ofs + OFFSET_OF(IMAGE_NT_HEADERS, OptionalHeader) +
	nth->FileHeader.SizeOfOptionalHeader;

    for (i = 0; i < nth->FileHeader.NumberOfSections; i++, pe_seg_ofs += sizeof(pe_seg)) {
      if (!DEBUG_READ_MEM_VERBOSE((void*)((char *)module->load_addr + pe_seg_ofs), 
				  &pe_seg, sizeof(pe_seg)))
	  continue;

      if (!strcasecmp(pe_seg.Name, ".stab")) {
	stabs = pe_seg.VirtualAddress;
	stabsize = pe_seg.SizeOfRawData;
      } else if (!strncasecmp(pe_seg.Name, ".stabstr", 8)) {
	stabstr = pe_seg.VirtualAddress;
	stabstrsize = pe_seg.SizeOfRawData;
      } else if (!strncasecmp(pe_seg.Name, ".xcnlnk", 7)) {
	xcnlnk = pe_seg.VirtualAddress;
	xcnlnksize = pe_seg.SizeOfRawData;
      }
    }

    if (stabstrsize && stabsize) {
       char*	s1 = DBG_alloc(stabsize+stabstrsize);

       if (s1) {
	  if (DEBUG_READ_MEM_VERBOSE((char*)module->load_addr + stabs, s1, stabsize) &&
	      DEBUG_READ_MEM_VERBOSE((char*)module->load_addr + stabstr, 
				     s1 + stabsize, stabstrsize)) {
	     DEBUG_ParseStabs(s1, 0, 0, stabsize, stabsize, stabstrsize);
	  } else {
	     DEBUG_Printf(DBG_CHN_MESG, "couldn't read data block\n");
	  }
	  DBG_free(s1);
       } else {
	  DEBUG_Printf(DBG_CHN_MESG, "couldn't alloc %d bytes\n", 
		       stabsize + stabstrsize);
       }
    }
    if (xcnlnksize) {
       DWORD	addr;
       char	bufstr[256];

       if (DEBUG_READ_MEM_VERBOSE((char*)module->load_addr + xcnlnk, &addr, 
				  sizeof(addr)) &&
	   DEBUG_READ_MEM_VERBOSE((char*)addr, bufstr, sizeof(bufstr))) {
	  bufstr[sizeof(bufstr) - 1] = 0;
	  DEBUG_Printf(DBG_CHN_TRACE, "Got xcnlnk: argv0 '%s'\n", bufstr);
 	  DEBUG_ReadExecutableDbgInfo(bufstr);
       }
    }
    return TRUE;
}

/*
 * Process COFF debugging information embedded in a Win32 application.
 *
 */
static
int
DEBUG_ProcessCoff(DBG_MODULE* module)
{
  struct CoffAuxSection * aux;
  struct CoffDebug   * coff;
  struct CoffFiles   * coff_files = NULL;
  struct CoffLinenum * coff_linetab;
  char		     * coff_strtab;
  struct CoffSymbol  * coff_sym;
  struct CoffSymbol  * coff_symbol;
  struct CoffFiles   * curr_file = NULL;
  int		       i;
  int		       j;
  int		       k;
  struct CoffLinenum * linepnt;
  int		       linetab_indx;
  char		       namebuff[9];
  char		     * nampnt;
  int		       naux;
  DBG_VALUE	       new_value;
  int		       nfiles = 0;
  int		       nfiles_alloc = 0;
  struct CoffFiles     orig_file;
  int		       rtn = FALSE;
  char		     * this_file = NULL;

  coff = (struct CoffDebug *) MSC_INFO(module)->dbg_info;

  coff_symbol = (struct CoffSymbol *) ((unsigned int) coff + coff->SymbolOffset);
  coff_linetab = (struct CoffLinenum *) ((unsigned int) coff + coff->LinenumberOffset);
  coff_strtab = (char *) ((unsigned int) coff_symbol + 18*coff->N_Sym);

  linetab_indx = 0;

  new_value.cookie = DV_TARGET;
  new_value.type = NULL;

  for(i=0; i < coff->N_Sym; i++ )
    {
      /*
       * We do this because some compilers (i.e. gcc) incorrectly
       * pad the structure up to a 4 byte boundary.  The structure
       * is really only 18 bytes long, so we have to manually make sure
       * we get it right.
       *
       * FIXME - there must be a way to have autoconf figure out the
       * correct compiler option for this.  If it is always gcc, that
       * makes life simpler, but I don't want to force this.
       */
      coff_sym = (struct CoffSymbol *) ((unsigned int) coff_symbol + 18*i);
      naux = coff_sym->NumberOfAuxSymbols;

      if( coff_sym->StorageClass == IMAGE_SYM_CLASS_FILE )
	{
	  if( nfiles + 1 >= nfiles_alloc )
	    {
	      nfiles_alloc += 10;
	      coff_files = (struct CoffFiles *) DBG_realloc(coff_files,
			nfiles_alloc * sizeof(struct CoffFiles));
	    }
	  curr_file = coff_files + nfiles;
	  nfiles++;
	  curr_file->startaddr = 0xffffffff;
	  curr_file->endaddr   = 0;
	  curr_file->filename =  ((char *) coff_sym) + 18;
	  curr_file->linetab_offset = -1;
	  curr_file->linecnt = 0;
	  curr_file->entries = NULL;
	  curr_file->neps = curr_file->neps_alloc = 0;
	  DEBUG_Printf(DBG_CHN_TRACE,"New file %s\n", curr_file->filename);
	  i += naux;
	  continue;
	}

      /*
       * This guy marks the size and location of the text section
       * for the current file.  We need to keep track of this so
       * we can figure out what file the different global functions
       * go with.
       */
      if(    (coff_sym->StorageClass == IMAGE_SYM_CLASS_STATIC)
	  && (naux != 0)
	  && (coff_sym->Type == 0)
	  && (coff_sym->SectionNumber == 1) )
	{
	  aux = (struct CoffAuxSection *) ((unsigned int) coff_sym + 18);

	  if( curr_file->linetab_offset != -1 )
	    {
#if 0
	      DEBUG_Printf(DBG_CHN_TRACE, "Duplicating sect from %s: %x %x %x %d %d\n",
			   curr_file->filename,
			   aux->Length,
			   aux->NumberOfRelocations,
			   aux->NumberOfLinenumbers,
			   aux->Number,
			   aux->Selection);
	      DEBUG_Printf(DBG_CHN_TRACE, "More sect %d %x %d %d %d\n", 
			   coff_sym->SectionNumber,
			   coff_sym->Value,
			   coff_sym->Type,
			   coff_sym->StorageClass,
			   coff_sym->NumberOfAuxSymbols);
#endif

	      /*
	       * Save this so we can copy bits from it.
	       */
	      orig_file = *curr_file;

	      /*
	       * Duplicate the file entry.  We have no way to describe
	       * multiple text sections in our current way of handling things.
	       */
	      if( nfiles + 1 >= nfiles_alloc )
		{
		  nfiles_alloc += 10;
		  coff_files = (struct CoffFiles *) DBG_realloc(coff_files,
								nfiles_alloc * sizeof(struct CoffFiles));
		}
	      curr_file = coff_files + nfiles;
	      nfiles++;
	      curr_file->startaddr = 0xffffffff;
	      curr_file->endaddr   = 0;
	      curr_file->filename = orig_file.filename;
	      curr_file->linetab_offset = -1;
	      curr_file->linecnt = 0;
	      curr_file->entries = NULL;
	      curr_file->neps = curr_file->neps_alloc = 0;
	    }
#if 0
	  else
	    {
	      DEBUG_Printf(DBG_CHN_TRACE, "New text sect from %s: %x %x %x %d %d\n",
			   curr_file->filename,
			   aux->Length,
			   aux->NumberOfRelocations,
			   aux->NumberOfLinenumbers,
			   aux->Number,
			   aux->Selection);
	    }
#endif

	  if( curr_file->startaddr > coff_sym->Value )
	    {
	      curr_file->startaddr = coff_sym->Value;
	    }
	  
	  if( curr_file->startaddr > coff_sym->Value )
	    {
	      curr_file->startaddr = coff_sym->Value;
	    }
	  
	  if( curr_file->endaddr < coff_sym->Value + aux->Length )
	    {
	      curr_file->endaddr = coff_sym->Value + aux->Length;
	    }
	  
	  curr_file->linetab_offset = linetab_indx;
	  curr_file->linecnt = aux->NumberOfLinenumbers;
	  linetab_indx += aux->NumberOfLinenumbers;
	  i += naux;
	  continue;
	}

      if(    (coff_sym->StorageClass == IMAGE_SYM_CLASS_STATIC)
	  && (naux == 0)
	  && (coff_sym->SectionNumber == 1) )
	{
	  /*
	   * This is a normal static function when naux == 0.
	   * Just register it.  The current file is the correct
	   * one in this instance.
	   */
	  if( coff_sym->N.Name.NotLong )
	    {
	      memcpy(namebuff, coff_sym->N.ShortName, 8);
	      namebuff[8] = '\0';
	      nampnt = &namebuff[0];
	    }
	  else
	    {
	      nampnt = coff_strtab + coff_sym->N.Name.StrTaboff;
	    }

	  if( nampnt[0] == '_' )
	    {
	      nampnt++;
	    }

	  new_value.addr.seg = 0;
	  new_value.addr.off = (int) ((char *)module->load_addr + coff_sym->Value);

	  if( curr_file->neps + 1 >= curr_file->neps_alloc )
	    {
	      curr_file->neps_alloc += 10;
	      curr_file->entries = (struct name_hash **) 
		DBG_realloc(curr_file->entries, 
			 curr_file->neps_alloc * sizeof(struct name_hash *));
	    }
#if 0
	  DEBUG_Printf(DBG_CHN_TRACE,"\tAdding static symbol %s\n", nampnt);
#endif
	  curr_file->entries[curr_file->neps++] =
	     DEBUG_AddSymbol( nampnt, &new_value, this_file, SYM_WIN32 );
	  i += naux;
	  continue;
	}

      if(    (coff_sym->StorageClass == IMAGE_SYM_CLASS_EXTERNAL)
	  && ISFCN(coff_sym->Type)
          && (coff_sym->SectionNumber > 0) )
	{
	  if( coff_sym->N.Name.NotLong )
	    {
	      memcpy(namebuff, coff_sym->N.ShortName, 8);
	      namebuff[8] = '\0';
	      nampnt = &namebuff[0];
	    }
	  else
	    {
	      nampnt = coff_strtab + coff_sym->N.Name.StrTaboff;
	    }


	  if( nampnt[0] == '_' )
	    {
	      nampnt++;
	    }

	  new_value.addr.seg = 0;
	  new_value.addr.off = (int) ((char *)module->load_addr + coff_sym->Value);

#if 0
	  DEBUG_Printf(DBG_CHN_TRACE, "%d: %x %s\n", i, new_value.addr.off, nampnt);

	  DEBUG_Printf(DBG_CHN_TRACE,"\tAdding global symbol %s\n", nampnt);
#endif

	  /*
	   * Now we need to figure out which file this guy belongs to.
	   */
	  this_file = NULL;
	  for(j=0; j < nfiles; j++)
	    {
	      if( coff_files[j].startaddr <= coff_sym->Value
		  && coff_files[j].endaddr > coff_sym->Value )
		{
		  this_file = coff_files[j].filename;
		  break;
		}
	    }
	  if( coff_files[j].neps + 1 >= coff_files[j].neps_alloc )
	    {
	      coff_files[j].neps_alloc += 10;
	      coff_files[j].entries = (struct name_hash **) 
		DBG_realloc(coff_files[j].entries, 
			 coff_files[j].neps_alloc * sizeof(struct name_hash *));
	    }
	  coff_files[j].entries[coff_files[j].neps++] =
	    DEBUG_AddSymbol( nampnt, &new_value, this_file, SYM_WIN32 );
	  i += naux;
	  continue;
	}

      if(    (coff_sym->StorageClass == IMAGE_SYM_CLASS_EXTERNAL)
          && (coff_sym->SectionNumber > 0) )
	{
	  /*
	   * Similar to above, but for the case of data symbols.
	   * These aren't treated as entrypoints.
	   */
	  if( coff_sym->N.Name.NotLong )
	    {
	      memcpy(namebuff, coff_sym->N.ShortName, 8);
	      namebuff[8] = '\0';
	      nampnt = &namebuff[0];
	    }
	  else
	    {
	      nampnt = coff_strtab + coff_sym->N.Name.StrTaboff;
	    }


	  if( nampnt[0] == '_' )
	    {
	      nampnt++;
	    }

	  new_value.addr.seg = 0;
	  new_value.addr.off = (int) ((char *)module->load_addr + coff_sym->Value);

#if 0
	  DEBUG_Printf(DBG_CHN_TRACE, "%d: %x %s\n", i, new_value.addr.off, nampnt);

	  DEBUG_Printf(DBG_CHN_TRACE,"\tAdding global data symbol %s\n", nampnt);
#endif

	  /*
	   * Now we need to figure out which file this guy belongs to.
	   */
	  DEBUG_AddSymbol( nampnt, &new_value, NULL, SYM_WIN32 );
	  i += naux;
	  continue;
	}
	  
      if(    (coff_sym->StorageClass == IMAGE_SYM_CLASS_STATIC)
	  && (naux == 0) )
	{
	  /*
	   * Ignore these.  They don't have anything to do with
	   * reality.
	   */
	  i += naux;
	  continue;
	}

#if 0
      DEBUG_Printf(DBG_CHN_TRACE,"Skipping unknown entry %d %d %d\n", coff_sym->StorageClass, 
		   coff_sym->SectionNumber, naux);
#endif

      /*
       * For now, skip past the aux entries.
       */
      i += naux;
      
    }
    
  /*
   * OK, we now should have a list of files, and we should have a list
   * of entrypoints.  We need to sort the entrypoints so that we are
   * able to tie the line numbers with the given functions within the
   * file.
   */
  if( coff_files != NULL )
    {
      for(j=0; j < nfiles; j++)
	{
	  if( coff_files[j].entries != NULL )
	    {
	      qsort(coff_files[j].entries, coff_files[j].neps,
		    sizeof(struct name_hash *), DEBUG_cmp_sym);
	    }
	}

      /*
       * Now pick apart the line number tables, and attach the entries
       * to the given functions.
       */
      for(j=0; j < nfiles; j++)
	{
	  i = 0;
	  if( coff_files[j].neps != 0 )
	    for(k=0; k < coff_files[j].linecnt; k++)
	    {
	      /*
	       * Another monstrosity caused by the fact that we are using
	       * a 6 byte structure, and gcc wants to pad structures to 4 byte
	       * boundaries.  Otherwise we could just index into an array.
	       */
	      linepnt = (struct CoffLinenum *) 
		((unsigned int) coff_linetab + 
		 6*(coff_files[j].linetab_offset + k));
	      /*
	       * If we have spilled onto the next entrypoint, then
	       * bump the counter..
	       */
	      while(TRUE)
		{
		  if (i+1 >= coff_files[j].neps) break;
		  DEBUG_GetSymbolAddr(coff_files[j].entries[i+1], &new_value.addr);
		  if( (((unsigned int)module->load_addr +
		        linepnt->VirtualAddr) >= new_value.addr.off) )
		  {
		      i++;
		  } else break;
		}

	      /*
	       * Add the line number.  This is always relative to the
	       * start of the function, so we need to subtract that offset
	       * first.
	       */
	      DEBUG_GetSymbolAddr(coff_files[j].entries[i], &new_value.addr);
	      DEBUG_AddLineNumber(coff_files[j].entries[i], 
				  linepnt->Linenum,
				  (unsigned int) module->load_addr 
				  + linepnt->VirtualAddr 
				  - new_value.addr.off);
	    }
	}
    }

  rtn = TRUE;

  if( coff_files != NULL )
    {
      for(j=0; j < nfiles; j++)
	{
	  if( coff_files[j].entries != NULL )
	    {
	      DBG_free(coff_files[j].entries);
	    }
	}
      DBG_free(coff_files);
    }

  return (rtn);

}

/*
 * Process a codeview line number table.  Digestify the thing so that
 * we can easily reference the thing when we process the rest of
 * the information.
 */
static struct codeview_linetab_hdr *
DEBUG_SnarfLinetab(char			     * linetab,
		   int			       size)
{
  int				  file_segcount;
  char				  filename[PATH_MAX];
  unsigned int			* filetab;
  char				* fn;
  int				  i;
  int				  k;
  struct codeview_linetab_hdr   * lt_hdr;
  unsigned int			* lt_ptr;
  int				  nfile;
  int				  nseg;
  union any_size		  pnt;
  union any_size		  pnt2;
  struct startend		* start;
  int				  this_seg;

  /*
   * Now get the important bits.
   */
  pnt.c = linetab;
  nfile = *pnt.s++;
  nseg = *pnt.s++;

  filetab = (unsigned int *) pnt.c;

  /*
   * Now count up the number of segments in the file.
   */
  nseg = 0;
  for(i=0; i<nfile; i++)
    {
      pnt2.c = linetab + filetab[i];
      nseg += *pnt2.s;
    }

  /*
   * Next allocate the header we will be returning.
   * There is one header for each segment, so that we can reach in
   * and pull bits as required.
   */
  lt_hdr = (struct codeview_linetab_hdr *) 
    DBG_alloc((nseg + 1) * sizeof(*lt_hdr));
  if( lt_hdr == NULL )
    {
      goto leave;
    }

  memset(lt_hdr, 0, sizeof(*lt_hdr) * (nseg+1));

  /*
   * Now fill the header we will be returning, one for each segment.
   * Note that this will basically just contain pointers into the existing
   * line table, and we do not actually copy any additional information
   * or allocate any additional memory.
   */

  this_seg = 0;
  for(i=0; i<nfile; i++)
    {
      /*
       * Get the pointer into the segment information.
       */
      pnt2.c = linetab + filetab[i];
      file_segcount = *pnt2.s;

      pnt2.ui++;
      lt_ptr = (unsigned int *) pnt2.c;
      start = (struct startend *) (lt_ptr + file_segcount);

      /*
       * Now snarf the filename for all of the segments for this file.
       */
      fn = (unsigned char *) (start + file_segcount);
      memset(filename, 0, sizeof(filename));
      memcpy(filename, fn + 1, *fn);
      fn = DBG_strdup(filename);

      for(k = 0; k < file_segcount; k++, this_seg++)
	{
	  pnt2.c = linetab + lt_ptr[k];
	  lt_hdr[this_seg].start      = start[k].start;
	  lt_hdr[this_seg].end	      = start[k].end;
	  lt_hdr[this_seg].sourcefile = fn;
	  lt_hdr[this_seg].segno      = *pnt2.s++;
	  lt_hdr[this_seg].nline      = *pnt2.s++;
	  lt_hdr[this_seg].offtab     =  pnt2.ui;
	  lt_hdr[this_seg].linetab    = (unsigned short *) 
	    (pnt2.ui + lt_hdr[this_seg].nline);
	}
    }

leave:

  return lt_hdr;

}

static int
DEBUG_SnarfCodeView(      DBG_MODULE	      	      * module,
			  char			      * cv_data,
			  int			        size,
			  struct codeview_linetab_hdr * linetab)
{
  struct name_hash	* curr_func = NULL;
  struct wine_locals	* curr_sym = NULL;
  int			  i;
  int			  j;
  int			  len;
  DBG_VALUE		  new_value;
  int			  nsect;
  union any_size	  ptr;
  IMAGE_SECTION_HEADER  * sectp;
  union	codeview_symbol	* sym;
  char			  symname[PATH_MAX];
  struct name_hash	* thunk_sym = NULL;

  ptr.c = cv_data;
  nsect = MSC_INFO(module)->nsect;
  sectp = DBG_alloc(sizeof(*sectp) * nsect);
  if (!sectp || 
      !DEBUG_READ_MEM_VERBOSE((char *)module->load_addr + MSC_INFO(module)->sect_ofs, 
			      sectp, sizeof(*sectp) * nsect))
     return FALSE;

  /*
   * Loop over the different types of records and whenever we
   * find something we are interested in, record it and move on.
   */
  while( ptr.c - cv_data < size )
    {
      sym = (union codeview_symbol *) ptr.c;

      if( sym->generic.len - sizeof(int) == (ptr.c - cv_data) )
	{
	  /*
	   * This happens when we have indirect symbols that VC++ 4.2
	   * sometimes uses when there isn't a line number table.
	   * We ignore it - we will process and enter all of the
	   * symbols in the global symbol table anyways, so there
	   * isn't much point in keeping track of all of this crap.
	   */
	  break;
	}

      memset(symname, 0, sizeof(symname));
      switch(sym->generic.id)
	{
	case S_GDATA:
	case S_LDATA:
	case S_PUB:
	  /*
	   * First, a couple of sanity checks.
	   */
	  if( sym->data.namelen == 0 )
	    {
	      break;
	    }

	  if( sym->data.seg == 0 || sym->data.seg > nsect )
	    {
	      break;
	    }

	  /*
	   * Global and local data symbols.  We don't associate these
	   * with any given source file.
	   */

	  memcpy(symname, sym->data.name, sym->data.namelen);
	  new_value.addr.seg = 0;
	  new_value.type = DEBUG_GetCVType(sym->data.symtype);
	  new_value.addr.off = (unsigned int) module->load_addr + 
	     sectp[sym->data.seg - 1].VirtualAddress + 
	     sym->data.offset;
	  new_value.cookie = DV_TARGET;
	  DEBUG_AddSymbol( symname, &new_value, NULL, SYM_WIN32 | SYM_DATA );
	  break;
	case S_GDATA_32:
	case S_LDATA_32:
	case S_PUB_32:
	  /*
	   * First, a couple of sanity checks.
	   */
	  if( sym->data32.namelen == 0 )
	    {
	      break;
	    }

	  if( sym->data32.seg == 0 || sym->data32.seg > nsect )
	    {
	      break;
	    }

	  /*
	   * Global and local data symbols.  We don't associate these
	   * with any given source file.
	   */

	  memcpy(symname, sym->data32.name, sym->data32.namelen);
	  new_value.addr.seg = 0;
	  new_value.type = DEBUG_GetCVType(sym->data32.symtype);
	  new_value.addr.off = (unsigned int) module->load_addr + 
	     sectp[sym->data32.seg - 1].VirtualAddress + 
	     sym->data32.offset;
	  new_value.cookie = DV_TARGET;
	  DEBUG_AddSymbol( symname, &new_value, NULL, SYM_WIN32 | SYM_DATA );
	  break;
	case S_THUNK:
	  /*
	   * Sort of like a global function, but it just points
	   * to a thunk, which is a stupid name for what amounts to
	   * a PLT slot in the normal jargon that everyone else uses.
	   */
	  memcpy(symname, sym->thunk.name, sym->thunk.namelen);
	  new_value.addr.seg = 0;
	  new_value.type = NULL;
	  new_value.addr.off = (unsigned int) module->load_addr + 
	     sectp[sym->thunk.segment - 1].VirtualAddress + 
	     sym->thunk.offset;
	  new_value.cookie = DV_TARGET;
	  thunk_sym = DEBUG_AddSymbol( symname, &new_value, NULL, 
				       SYM_WIN32 | SYM_FUNC);
	  DEBUG_SetSymbolSize(thunk_sym, sym->thunk.thunk_len);
	  break;
	case S_GPROC:
	case S_LPROC:
	  /*
	   * Global and static functions.
	   */
	  memcpy(symname, sym->proc.name, sym->proc.namelen);
	  new_value.addr.seg = 0;
	  new_value.type = DEBUG_GetCVType(sym->proc.proctype);
	  new_value.addr.off = (unsigned int) module->load_addr + 
	     sectp[sym->proc.segment - 1].VirtualAddress + 
	     sym->proc.offset;
	  new_value.cookie = DV_TARGET;
	  /*
	   * See if we can find a segment that this goes with.  If so,
	   * it means that we also may have line number information
	   * for this function.
	   */
	  for(i=0; linetab && linetab[i].linetab != NULL; i++)
	    {
	      if(     ((unsigned int) module->load_addr 
		       + sectp[linetab[i].segno - 1].VirtualAddress 
		       + linetab[i].start <= new_value.addr.off)
		  &&  ((unsigned int) module->load_addr 
		       + sectp[linetab[i].segno - 1].VirtualAddress 
		       + linetab[i].end > new_value.addr.off) )
		{
		  break;
		}
	    }

 	  DEBUG_Normalize(curr_func);
	  if( !linetab || linetab[i].linetab == NULL )
	    {
	      curr_func = DEBUG_AddSymbol( symname, &new_value, NULL,
					   SYM_WIN32 | SYM_FUNC);
	    }
	  else
	    {
	      /*
	       * First, create the entry.  Then dig through the linetab
	       * and add whatever line numbers are appropriate for this
	       * function.
	       */
	      curr_func = DEBUG_AddSymbol( symname, &new_value, 
					   linetab[i].sourcefile,
					   SYM_WIN32 | SYM_FUNC);
	      for(j=0; j < linetab[i].nline; j++)
		{
		  if( linetab[i].offtab[j] >= sym->proc.offset 
		      && linetab[i].offtab[j] < sym->proc.offset 
		      + sym->proc.proc_len )
		    {
		      DEBUG_AddLineNumber(curr_func, linetab[i].linetab[j],
					  linetab[i].offtab[j] - sym->proc.offset);
		    }
		}

	    }

	  /*
	   * Add information about where we should set breakpoints
	   * in this function.
	   */
	  DEBUG_SetSymbolBPOff(curr_func, sym->proc.debug_start);
	  DEBUG_SetSymbolSize(curr_func, sym->proc.proc_len);
	  break;
	case S_GPROC_32:
	case S_LPROC_32:
	  /*
	   * Global and static functions.
	   */
	  memcpy(symname, sym->proc32.name, sym->proc32.namelen);
	  new_value.addr.seg = 0;
	  new_value.type = DEBUG_GetCVType(sym->proc32.proctype);
	  new_value.addr.off = (unsigned int) module->load_addr + 
	    sectp[sym->proc32.segment - 1].VirtualAddress + 
	    sym->proc32.offset;
	  new_value.cookie = DV_TARGET;
	  /*
	   * See if we can find a segment that this goes with.  If so,
	   * it means that we also may have line number information
	   * for this function.
	   */
	  for(i=0; linetab && linetab[i].linetab != NULL; i++)
	    {
	      if(     ((unsigned int) module->load_addr 
		       + sectp[linetab[i].segno - 1].VirtualAddress 
		       + linetab[i].start <= new_value.addr.off)
		  &&  ((unsigned int) module->load_addr 
		       + sectp[linetab[i].segno - 1].VirtualAddress 
		       + linetab[i].end > new_value.addr.off) )
		{
		  break;
		}
	    }

 	  DEBUG_Normalize(curr_func);
	  if( !linetab || linetab[i].linetab == NULL )
	    {
	      curr_func = DEBUG_AddSymbol( symname, &new_value, NULL,
					   SYM_WIN32 | SYM_FUNC);
	    }
	  else
	    {
	      /*
	       * First, create the entry.  Then dig through the linetab
	       * and add whatever line numbers are appropriate for this
	       * function.
	       */
	      curr_func = DEBUG_AddSymbol( symname, &new_value, 
					   linetab[i].sourcefile,
					   SYM_WIN32 | SYM_FUNC);
	      for(j=0; j < linetab[i].nline; j++)
		{
		  if( linetab[i].offtab[j] >= sym->proc32.offset 
		      && linetab[i].offtab[j] < sym->proc32.offset 
		      + sym->proc32.proc_len )
		    {
		      DEBUG_AddLineNumber(curr_func, linetab[i].linetab[j],
					  linetab[i].offtab[j] - sym->proc32.offset);
		    }
		}

	    }

	  /*
	   * Add information about where we should set breakpoints
	   * in this function.
	   */
	  DEBUG_SetSymbolBPOff(curr_func, sym->proc32.debug_start);
	  DEBUG_SetSymbolSize(curr_func, sym->proc32.proc_len);
	  break;
	case S_BPREL:
	  /*
	   * Function parameters and stack variables.
	   */
	  memcpy(symname, sym->stack.name, sym->stack.namelen);
	  curr_sym = DEBUG_AddLocal(curr_func, 
			 0, 
			 sym->stack.offset, 
			 0, 
			 0, 
			 symname);
	  DEBUG_SetLocalSymbolType(curr_sym, DEBUG_GetCVType(sym->stack.symtype));
	  
	  break;
	case S_BPREL_32:
	  /*
	   * Function parameters and stack variables.
	   */
	  memcpy(symname, sym->stack32.name, sym->stack32.namelen);
	  curr_sym = DEBUG_AddLocal(curr_func, 
			 0, 
			 sym->stack32.offset, 
			 0, 
			 0, 
			 symname);
	  DEBUG_SetLocalSymbolType(curr_sym, DEBUG_GetCVType(sym->stack32.symtype));
	  
	  break;
	default:
	  break;
	}

      /*
       * Adjust pointer to point to next entry, rounding up to a word
       * boundary.  MS preserving alignment?  Stranger things have
       * happened.
       */
      if( sym->generic.id == S_PROCREF
	  || sym->generic.id == S_DATAREF
	  || sym->generic.id == S_LPROCREF )
	{
	  len = (sym->generic.len + 3) & ~3;
	  len += ptr.c[16] + 1;
	  ptr.c += (len + 3) & ~3;
	}
      else
	{
	  ptr.c += (sym->generic.len + 3) & ~3;
	}
    }

  if( linetab != NULL )
    {
      DBG_free(linetab);
    }

  DBG_free(sectp);
  return TRUE;
}


/*
 * Process PDB file which contains debug information.
 */

#pragma pack(1)
typedef struct _PDB_FILE
{
    DWORD size;
    DWORD unknown;

} PDB_FILE, *PPDB_FILE;

typedef struct _PDB_HEADER
{
    CHAR     ident[40];
    DWORD    signature;
    DWORD    blocksize;
    WORD     freelist;
    WORD     total_alloc;
    PDB_FILE toc;
    WORD     toc_block[ 1 ];

} PDB_HEADER, *PPDB_HEADER;

typedef struct _PDB_TOC
{
    DWORD    nFiles;
    PDB_FILE file[ 1 ];

} PDB_TOC, *PPDB_TOC;

typedef struct _PDB_ROOT
{
    DWORD  version;
    DWORD  TimeDateStamp;
    DWORD  unknown;
    DWORD  cbNames;
    CHAR   names[ 1 ];

} PDB_ROOT, *PPDB_ROOT;

typedef struct _PDB_TYPES_OLD
{
    DWORD  version;
    WORD   first_index;
    WORD   last_index;
    DWORD  type_size;
    WORD   file;
    WORD   pad;

} PDB_TYPES_OLD, *PPDB_TYPES_OLD;

typedef struct _PDB_TYPES
{
    DWORD  version;
    DWORD  type_offset;
    DWORD  first_index;
    DWORD  last_index;
    DWORD  type_size;
    WORD   file;
    WORD   pad;
    DWORD  hash_size;
    DWORD  hash_base;
    DWORD  hash_offset;
    DWORD  hash_len;
    DWORD  search_offset;
    DWORD  search_len;
    DWORD  unknown_offset;
    DWORD  unknown_len;

} PDB_TYPES, *PPDB_TYPES;

typedef struct _PDB_SYMBOL_RANGE
{
    WORD   segment;
    WORD   pad1;
    DWORD  offset;
    DWORD  size;
    DWORD  characteristics;
    WORD   index;
    WORD   pad2;

} PDB_SYMBOL_RANGE, *PPDB_SYMBOL_RANGE;

typedef struct _PDB_SYMBOL_RANGE_EX
{
    WORD   segment;
    WORD   pad1;
    DWORD  offset;
    DWORD  size;
    DWORD  characteristics;
    WORD   index;
    WORD   pad2;
    DWORD  timestamp;
    DWORD  unknown;

} PDB_SYMBOL_RANGE_EX, *PPDB_SYMBOL_RANGE_EX;

typedef struct _PDB_SYMBOL_FILE
{
    DWORD  unknown1;
    PDB_SYMBOL_RANGE range;
    WORD   flag;
    WORD   file;
    DWORD  symbol_size;
    DWORD  lineno_size;
    DWORD  unknown2;
    DWORD  nSrcFiles;
    DWORD  attribute;
    CHAR   filename[ 1 ];

} PDB_SYMBOL_FILE, *PPDB_SYMBOL_FILE;

typedef struct _PDB_SYMBOL_FILE_EX
{
    DWORD  unknown1;
    PDB_SYMBOL_RANGE_EX range;
    WORD   flag;
    WORD   file;
    DWORD  symbol_size;
    DWORD  lineno_size;
    DWORD  unknown2;
    DWORD  nSrcFiles;
    DWORD  attribute;
    DWORD  reserved[ 2 ];
    CHAR   filename[ 1 ];

} PDB_SYMBOL_FILE_EX, *PPDB_SYMBOL_FILE_EX;

typedef struct _PDB_SYMBOL_SOURCE
{
    WORD   nModules;
    WORD   nSrcFiles;
    WORD   table[ 1 ];

} PDB_SYMBOL_SOURCE, *PPDB_SYMBOL_SOURCE;

typedef struct _PDB_SYMBOL_IMPORT
{
    DWORD  unknown1;
    DWORD  unknown2;
    DWORD  TimeDateStamp;
    DWORD  nRequests;
    CHAR   filename[ 1 ];

} PDB_SYMBOL_IMPORT, *PPDB_SYMBOL_IMPORT;

typedef struct _PDB_SYMBOLS_OLD
{
    WORD   hash1_file;
    WORD   hash2_file;
    WORD   gsym_file;
    WORD   pad;
    DWORD  module_size;
    DWORD  offset_size;
    DWORD  hash_size;
    DWORD  srcmodule_size;

} PDB_SYMBOLS_OLD, *PPDB_SYMBOLS_OLD;

typedef struct _PDB_SYMBOLS
{
    DWORD  signature;
    DWORD  version;
    DWORD  extended_format;
    DWORD  hash1_file;
    DWORD  hash2_file;
    DWORD  gsym_file;
    DWORD  module_size;
    DWORD  offset_size;
    DWORD  hash_size;
    DWORD  srcmodule_size;
    DWORD  pdbimport_size;
    DWORD  resvd[ 5 ];

} PDB_SYMBOLS, *PPDB_SYMBOLS;
#pragma pack()


static void *pdb_read( LPBYTE image, WORD *block_list, int size )
{
    PPDB_HEADER pdb = (PPDB_HEADER)image;
    int i, nBlocks;
    LPBYTE buffer;

    if ( !size ) return NULL;

    nBlocks = (size + pdb->blocksize-1) / pdb->blocksize;
    buffer = DBG_alloc( nBlocks * pdb->blocksize );

    for ( i = 0; i < nBlocks; i++ )
        memcpy( buffer + i*pdb->blocksize,
                image + block_list[i]*pdb->blocksize, pdb->blocksize );

    return buffer;
}

static void *pdb_read_file( LPBYTE image, PPDB_TOC toc, int fileNr )
{
    PPDB_HEADER pdb = (PPDB_HEADER)image;
    WORD *block_list;
    int i;

    if ( !toc || fileNr >= toc->nFiles )
        return NULL;

    block_list = (WORD *) &toc->file[ toc->nFiles ];
    for ( i = 0; i < fileNr; i++ )
        block_list += (toc->file[i].size + pdb->blocksize-1) / pdb->blocksize;

    return pdb_read( image, block_list, toc->file[fileNr].size );
}

static void pdb_free( void *buffer )
{
    DBG_free( buffer );
}

static void pdb_convert_types_header( PDB_TYPES *types, char *image )
{
    memset( types, 0, sizeof(PDB_TYPES) );
    if ( !image ) return;

    if ( *(DWORD *)image < 19960000 )   /* FIXME: correct version? */
    {
        /* Old version of the types record header */
        PDB_TYPES_OLD *old = (PDB_TYPES_OLD *)image;
        types->version     = old->version;
        types->type_offset = sizeof(PDB_TYPES_OLD);
        types->type_size   = old->type_size;
        types->first_index = old->first_index;
        types->last_index  = old->last_index;
        types->file        = old->file;
    }
    else
    {
        /* New version of the types record header */
        *types = *(PDB_TYPES *)image;
    }
}

static void pdb_convert_symbols_header( PDB_SYMBOLS *symbols, 
                                        int *header_size, char *image )
{
    memset( symbols, 0, sizeof(PDB_SYMBOLS) );
    if ( !image ) return;

    if ( *(DWORD *)image != 0xffffffff )
    {
        /* Old version of the symbols record header */
        PDB_SYMBOLS_OLD *old     = (PDB_SYMBOLS_OLD *)image;
        symbols->version         = 0;
        symbols->extended_format = 0;
        symbols->module_size     = old->module_size;
        symbols->offset_size     = old->offset_size;
        symbols->hash_size       = old->hash_size;
        symbols->srcmodule_size  = old->srcmodule_size;
        symbols->pdbimport_size  = 0;
        symbols->hash1_file      = old->hash1_file;
        symbols->hash2_file      = old->hash2_file;
        symbols->gsym_file       = old->gsym_file;

        *header_size = sizeof(PDB_SYMBOLS_OLD);
    }
    else
    {
        /* New version of the symbols record header */
        *symbols = *(PDB_SYMBOLS *)image;

        *header_size = sizeof(PDB_SYMBOLS);
    }
}

static int DEBUG_ProcessPDBFile( DBG_MODULE* module, const char *full_filename )
{
    HANDLE hFile, hMap;
    char *image = NULL;
    PDB_HEADER *pdb = NULL;
    PDB_TOC *toc = NULL;
    PDB_ROOT *root = NULL;
    char *types_image = NULL;
    char *symbols_image = NULL;
    PDB_TYPES types;
    PDB_SYMBOLS symbols;
    int header_size = 0;
    char *modimage, *file;


    /*
     * Open and map() .PDB file
     */
    if ((image = DEBUG_MapDebugInfoFile(full_filename, 0, 0, &hFile, &hMap)) == NULL) {
       DEBUG_Printf( DBG_CHN_ERR, "-Unable to peruse .PDB file %s\n", full_filename );
       goto leave;
    }

    /*
     * Read in TOC and well-known files
     */

    pdb = (PPDB_HEADER)image;
    toc = pdb_read( image, pdb->toc_block, pdb->toc.size );
    root = pdb_read_file( image, toc, 1 );
    types_image = pdb_read_file( image, toc, 2 );
    symbols_image = pdb_read_file( image, toc, 3 );

    pdb_convert_types_header( &types, types_image );
    pdb_convert_symbols_header( &symbols, &header_size, symbols_image );

    /*
     * Check for unknown versions
     */

    switch ( root->version )
    {
        case 19950623:      /* VC 4.0 */
        case 19950814:
        case 19960307:      /* VC 5.0 */
        case 19970604:      /* VC 6.0 */
            break;
        default:
            DEBUG_Printf( DBG_CHN_ERR, "-Unknown root block version %ld\n", root->version );
    }

    switch ( types.version )
    {
        case 19950410:      /* VC 4.0 */
        case 19951122:
        case 19961031:      /* VC 5.0 / 6.0 */
            break;
        default:
            DEBUG_Printf( DBG_CHN_ERR, "-Unknown type info version %ld\n", types.version );
    }

    switch ( symbols.version )
    {
        case 0:            /* VC 4.0 */
        case 19960307:     /* VC 5.0 */
        case 19970606:     /* VC 6.0 */
            break;
        default:
            DEBUG_Printf( DBG_CHN_ERR, "-Unknown symbol info version %ld\n", symbols.version );
    }


    /* 
     * Check .PDB time stamp
     */

    if (      root->TimeDateStamp 
         != ((struct CodeViewDebug *)MSC_INFO(module)->dbg_info)->cv_timestamp ) 
    {
        DEBUG_Printf(DBG_CHN_ERR, "-Wrong time stamp of .PDB file %s\n", full_filename);
        goto leave;
    }

    /* 
     * Read type table
     */

    DEBUG_ParseTypeTable( types_image + types.type_offset, types.type_size );
    
    /*
     * Read type-server .PDB imports
     */

    if ( symbols.pdbimport_size )
    {   
        /* FIXME */
        DEBUG_Printf(DBG_CHN_ERR, "-Type server .PDB imports ignored!\n" );
    }

    /* 
     * Read global symbol table
     */

    modimage = pdb_read_file( image, toc, symbols.gsym_file );
    if ( modimage )
    {
        DEBUG_SnarfCodeView( module, modimage, 
                             toc->file[symbols.gsym_file].size, NULL );
        pdb_free( modimage );
    }

    /*
     * Read per-module symbol / linenumber tables
     */

    file = symbols_image + header_size;
    while ( file - symbols_image < header_size + symbols.module_size )
    {
        int file_nr, file_index, symbol_size, lineno_size;
        char *file_name;

        if ( !symbols.extended_format )
        {
            PDB_SYMBOL_FILE *sym_file = (PDB_SYMBOL_FILE *) file;
            file_nr     = sym_file->file;
            file_name   = sym_file->filename;
            file_index  = sym_file->range.index;
            symbol_size = sym_file->symbol_size;
            lineno_size = sym_file->lineno_size;
        }
        else
        {
            PDB_SYMBOL_FILE_EX *sym_file = (PDB_SYMBOL_FILE_EX *) file;
            file_nr     = sym_file->file;
            file_name   = sym_file->filename;
            file_index  = sym_file->range.index;
            symbol_size = sym_file->symbol_size;
            lineno_size = sym_file->lineno_size;
        }

        modimage = pdb_read_file( image, toc, file_nr );
        if ( modimage )
        {
            struct codeview_linetab_hdr *linetab = NULL;

            if ( lineno_size )
                linetab = DEBUG_SnarfLinetab( modimage + symbol_size, lineno_size );

            if ( symbol_size )
                DEBUG_SnarfCodeView( module, modimage + sizeof(DWORD),
                                     symbol_size - sizeof(DWORD), linetab );

            pdb_free( modimage );
        }

        file_name += strlen(file_name) + 1;
        file = (char *)( (DWORD)(file_name + strlen(file_name) + 1 + 3) & ~3 );
    }
    

 leave:    

    /*
     * Cleanup
     */

    DEBUG_ClearTypeTable();

    if ( symbols_image ) pdb_free( symbols_image );
    if ( types_image ) pdb_free( types_image );
    if ( root ) pdb_free( root );
    if ( toc ) pdb_free( toc );

    DEBUG_UnmapDebugInfoFile(hFile, hMap, image);

    return TRUE;
}


/*
 * Process DBG file which contains debug information.
 */
static
int
DEBUG_ProcessDBGFile(DBG_MODULE* module, const char* filename)
{
  HANDLE			hFile, hMap;
  char			      * addr;
  char			      * codeview;
  struct CV4_DirHead	      * codeview_dir;
  struct CV4_DirEnt	      * codeview_dent;
  PIMAGE_DEBUG_DIRECTORY	dbghdr;
  DBG_MODULE			module2;
  int				i;
  int				j;
  struct codeview_linetab_hdr * linetab;
  int				nsect;
  PIMAGE_SEPARATE_DEBUG_HEADER pdbg = NULL;
  IMAGE_SECTION_HEADER        * sectp;

  if ((addr = DEBUG_MapDebugInfoFile(filename, 0, 0, &hFile, &hMap)) == NULL) {
     DEBUG_Printf(DBG_CHN_ERR, "-Unable to peruse .DBG file %s\n", filename);
     goto leave;
  }

  pdbg = (PIMAGE_SEPARATE_DEBUG_HEADER) addr;

  if( pdbg->TimeDateStamp != MSC_INFO(module)->dbgdir.TimeDateStamp )
    {
      DEBUG_Printf(DBG_CHN_ERR, "Warning - %s has incorrect internal timestamp\n",
	      filename);
/*      goto leave; */
/*
   Well, sometimes this happens to DBG files which ARE REALLY the right .DBG
   files but nonetheless this check fails. Anyway, WINDBG (debugger for
   Windows by Microsoft) loads debug symbols which have incorrect timestamps.
*/
   }

  DEBUG_Printf(DBG_CHN_MESG, "Processing symbols from %s...\n", filename);

  dbghdr = (PIMAGE_DEBUG_DIRECTORY) (  addr + sizeof(*pdbg) 
		 + pdbg->NumberOfSections * sizeof(IMAGE_SECTION_HEADER) 
		 + pdbg->ExportedNamesSize);

  sectp = (PIMAGE_SECTION_HEADER) ((char *) pdbg + sizeof(*pdbg));
  nsect = pdbg->NumberOfSections;

  for( i=0; i < pdbg->DebugDirectorySize / sizeof(*pdbg); i++, dbghdr++ )
    {
      switch(dbghdr->Type)
		{
		case IMAGE_DEBUG_TYPE_COFF:
		  /*
		   * Dummy up a deferred debug header to handle the
		   * COFF stuff embedded within the DBG file.
		   */
		  memset((char *) &module2, 0, sizeof(module2));
		  MSC_INFO(&module2)->dbg_info = (addr + dbghdr->PointerToRawData);
		  MSC_INFO(&module2)->dbg_size = dbghdr->SizeOfData;
		  module2.load_addr = module->load_addr;

		  DEBUG_ProcessCoff(&module2);
		  break;
		case IMAGE_DEBUG_TYPE_CODEVIEW:
		  /*
		   * This is the older format by which codeview stuff is 
		   * stored, known as the 'NB09' format.  Newer executables
		   * and dlls created by VC++ use PDB files instead, which
		   * have lots of internal similarities, but the overall
		   * format and structure is quite different.
		   */
		  codeview = (addr + dbghdr->PointerToRawData);

		  /*
		   * The first thing in the codeview section should be
		   * an 'NB09' identifier.  As a sanity check, make sure
		   * it is there.
		   */
		  if( *((unsigned int*) codeview) != 0x3930424e )
		    {
		      break;
		    }
		  
		  /*
		   * Next we need to find the directory.  This is easy too.
		   */
		  codeview_dir = (struct CV4_DirHead *) 
		    (codeview + ((unsigned int*) codeview)[1]);

		  /*
		   * Some more sanity checks.  Make sure that everything
		   * is as we expect it.
		   */
		  if( codeview_dir->next_offset != 0 
		      || codeview_dir->dhsize != sizeof(*codeview_dir)
		      || codeview_dir->desize != sizeof(*codeview_dent) )
		    {
		      break;
		    }
		  codeview_dent = (struct CV4_DirEnt *) (codeview_dir + 1);

		  for(j=0; j < codeview_dir->ndir; j++, codeview_dent++)
		    {
		      if( codeview_dent->subsect_number == sstAlignSym )
			{
			  /*
			   * Check the previous entry.  If it is a
			   * sstSrcModule, it contains the line number
			   * info for this file.
			   */
			  linetab = NULL;
			  if( codeview_dent[1].module_number == codeview_dent[0].module_number
			      && codeview_dent[1].subsect_number == sstSrcModule )
			    {
			      linetab = DEBUG_SnarfLinetab(
					   codeview + codeview_dent[1].offset,
					   codeview_dent[1].size);
			    }

			  if( codeview_dent[-1].module_number == codeview_dent[0].module_number
			      && codeview_dent[-1].subsect_number == sstSrcModule )
			    {
			      linetab = DEBUG_SnarfLinetab(
					   codeview + codeview_dent[-1].offset,
					   codeview_dent[-1].size);
			    }
			  /*
			   * Now process the CV stuff.
			   */
			  DEBUG_SnarfCodeView(module, 
					      codeview + codeview_dent->offset + sizeof(DWORD),
					      codeview_dent->size - sizeof(DWORD),
					      linetab);
			}
		    }

		  break;
		default:
		  break;
		}
    }
leave:

  DEBUG_UnmapDebugInfoFile(hFile, hMap, addr);

  return TRUE;
}

static int 
DEBUG_ProcessMSCDebugInfo(DBG_MODULE* module)
{
  struct CodeViewDebug	     * cvd;
  struct MiscDebug	     * misc;
  char			     * filename;
  int			       sts;
  
  switch (MSC_INFO(module)->dbgdir.Type)
     {
     case IMAGE_DEBUG_TYPE_COFF:
	/*
	 * Standard COFF debug information that VC++ adds when you
	 * use /debugtype:both with the linker.
	 */
	DEBUG_Printf(DBG_CHN_TRACE, "Processing COFF symbols...\n");
	sts = DEBUG_ProcessCoff(module);
	break;
     case IMAGE_DEBUG_TYPE_CODEVIEW:
	/*
	 * This is a pointer to a PDB file of some sort.
	 */
	cvd = (struct CodeViewDebug *) MSC_INFO(module)->dbg_info;
	
	if( strcmp(cvd->cv_nbtype, "NB10") != 0 )
	   {
	      /*
	       * Whatever this is, we don't know how to deal with
	       * it yet.
	       */
	      sts = FALSE;
	      break;
	   }
	sts = DEBUG_ProcessPDBFile(module, cvd->cv_name);
	DEBUG_Printf(DBG_CHN_TRACE, "Processing PDB file %s\n", cvd->cv_name);
	break;
     case IMAGE_DEBUG_TYPE_MISC:
	/*
	 * A pointer to a .DBG file of some sort.  These files
	 * can contain either CV4 or COFF information.  Open
	 * the file, and try to do the right thing with it.
	 */
	misc = (struct MiscDebug *) MSC_INFO(module)->dbg_info;
	
	filename = strrchr((char *) &misc->Data, '.');
	
	/*
	 * Ignore the file if it doesn't have a .DBG extension.
	 */
	if(    (filename == NULL)
	       || (    (strcmp(filename, ".dbg") != 0)
		       && (strcmp(filename, ".DBG") != 0)) )
	   {
	      sts = FALSE;
	      break;
	   }
	
	filename = (char *) &misc->Data;
	
	/*
	 * Do the dirty deed...
	 */
	sts = DEBUG_ProcessDBGFile(module, filename);
	
	break;
     default:
	/*
	 * We should never get here...
	 */
	sts = FALSE;
	break;
     }
  module->status = (sts) ? DM_STATUS_LOADED : DM_STATUS_ERROR;
  return sts;
}